Effects of flowering period on floral traits, pollinator behavior and seed production of David’s mountain laurel (Sophora davidii)

ABSTRACT Sophora davidii is a cross-pollinated plant with important ecological protection and medicinal value in China, but its seed yield is low due to backward and nonstandard production technology. Therefore, we divide the flowering period of Sophora davidii into initial, full and final flowering period, measuring the floral morphology, pollen viability, stigma receptivity, nectar volume and nectar concentration, foraging behavior of pollinators, fertilization physiology, seed yield and quality through field observation and indoor testing to explore whether the flowering period affects the floral traits, pollinator behavior and seed production of plants. Our results revealed that the nectar volume, nectar concentration, pollen viability and stigma receptivity at full flowering period were the highest. The single visit time and visit time per flower of Chinese honey bees were the longest in the full flowering period, while the number of transfer, visit frequency and number of touching stigma were the least. The visiting number of the bees was the most and the most active in the full flowering period. The bees pollination not only improved the pollen amount, germination rate, pollen tube length and the ovule number of S. davidii, but also their effect was the most obvious in full flowering period. The principal component analysis showed that pollination by Chinese honey bees during the whole flowering period of S. davidii was the best way to produce seeds. We can conclude that flowering period affects flower traits, foraging behavior of pollinators, seed yield and quality of S. davidii.


Introduction
The David's mountain laurel plant Sophora davidii, belongs to the Fabaceae family, is a spiny, deciduous, perennial shrub native to southwestern China, and typically grows from 2 to 4 m in length and width.It is not only an important pioneer plant for soil and water conservation and rocky desertification control in karst area of China, especially in the Guizhou province, but also a high-quality feed source for herbivorous livestock and one of the main nectar plants in spring. 1,2. davidii is also used in the medical field.Its seeds and flowers contain a variety of alkaloids, flavonoids and other medicinal components, which can be used as effective components of therapeutic drugs for Alzheimer's disease. 3][6] S. davidii is widely cultivated for its high ecological protection, forage grass and medicinal values, but its seed yield is low due to backward and unstandardized production technology. 7[10] S. davidii is a hermaphroditic plant that is crosspollinated. 11Hence, in the absence of pollinators, the number of seeds per pod is small and even abortion exists. 12This means that the development and formation of the seeds of S. davidii is still dependent on the pollinators.However, studies on improving seed yield of S. davidii have focused mainly on cultivation and management, while studies on the pollination have been rarely reported.
Studies showed that about 76% of the world's 115 major crops depended on bee pollination to form seeds and fruits. 13s pollinators, bees are able to pollinate in time, effectively, fully, recognized and safely, creating the necessary conditions for plant fertilization.Through bee pollination, more pollen cannot only fall on the stigma to germinate, making the group effect of pollen germination and pollen tube growth stronger, but also it can accelerate the physiological effect after fertilization and promote the development of fruits and seeds, thus achieving the effect of increasing production and improving quality. 14Among them, Chinese honey bees Apis cerana cerana Fabricius, as a native bee species in China, has the characteristics of diligent collection, strong resistance and adaptability, and is good at collecting sporadic nectar sources, which has been widely used in pollination of field crops and agricultural facility crops in China.
Pollination is a crucial step in the fertilization process of angiosperms, which means that active and mature pollen grains needs to be transported to the appropriate stigma by wind or pollinators such as bees. 15In the process of bee visiting flowers, the floral traits, flower reward and environmental factors will all affect their visiting behavior, and then affect their pollination effect.The success of pollination directly influences the success rate of plant reproduction. 16ecause of this, it is necessary for us to observe the flower characteristics of plants and study pollination media in order to better understand the pollination methods of plants and lay a scientific foundation for choosing pollination methods.
However, the flower traits of plants vary with the growth cycle, and different floral traits also have certain effects on seed yield and quality. 17And the pollen viability and stigma receptivity of plants at different flowering periods are also different. 18It is evident that studying the flower characteristics of plants at different flowering periods is helpful to further understand the pollination and fertilization mechanism of plants, especially angiosperms.
Therefore, in order to explore the floral traits at different flowering periods and their effects on pollinator behavior and seed production, in this study, we measured the floral morphology, pollen viability, stigma receptivity, nectar volume and nectar concentration of S. davidii at different flowering periods, and in addition, we also investigated the foraging behavior of A. cerana cerana at different flowering periods and the effects of pollination treatment at different flowering periods on fertilization physiology, seed yield and quality of S. davidii.After collecting all the data, we will try to draw the correlation between flower traits and pollinator behavior, and determine the best pollination period of S. davidii through production performance, which will provide more meaningful reference value for rational pollination of insects, efficient production of seeds and honey production.

Study site
The study area belongs to the subtropical monsoon climate and is located in the Guizhou Grassland Technology Test Extension Station (N25°04′~25°21′, E107°41′~107°55′), Dushan County, Guizhou Province, China.The lowest and highest temperature in the area was 2°C and 32°C, respectively, the annual precipitation about 1150 mm, and the annual sunshine hours about 1300 h. 19

Study materials
The main study was conducted from April to August 2021.The test material were 3-year-old potted S. davidii plants, which were transplanted to the test area upon reaching the flowering conditions.The pollinator was A. cerana cerana Fabricius, which is the locally dominant bee species in this study area.

Observation and determination of floral traits
The division of flowering periods was done according to the population flowering criteria as follows: (1) Initial is when 5% of the sample plants are flowering as the initial flowering period; (2) Full is when over 30% of the sample plants are flowering as the full flowering period; and (3) Final is when over 95% of the sample plants have been flowered as the final flowering period. 20e randomly marked 30 inflorescences from 30 plants of S. davidii, and observed their opening days from the first flower to the last flower.Another 30 flowers from different plants of S. davidii were randomly collected in the initial, full and final flowering periods, respectively.Each flowering periods was done with three repetitions, and each repetition had 10 flowers.The collected flower samples were placed in a centrifuge tube containing FAA fixative, marked and brought back to the laboratory for testing.The length of calyx, filament and pistil, and the length and width of corolla, anther, stigma, vexillum, wing and keel were measured with Vernier caliper with an accuracy of 0.02 mm.

Nectar volume and nectar concentration
We randomly selected 10 inflorescences from 9 plants of S. davidii which isolated by net room at the initial, full and final flowering periods, respectively.The total nectar on each inflorescence was extracted by a 25-µL syringe, and the average nectar volume of each inflorescence was calculated.The nectar concentration was measured by a portable refractometer.

Pollen viability and stigma receptivity
Another 30 flowers from 9 plants were randomly collected in three different periods as described above.The collected flower samples were placed in a centrifuge tube containing FAA fixative, marked and brought back to the laboratory, and then their pollens were dispersed by an oven at 45°C and stored in a refrigerator at 4°C for testing.
The pollen at the initial, full and final flowering periods of S. davidii were taken for histochemical evaluation.The pollen grains was distributed on slides and stained with I 2 -KI solution.We randomly selected three visual fields to observe the pollen staining.Blue is a well-developed and vigorous pollen grain, while yellow-brown is a poorly developed pollen grain.And the number of pollen grains in each visual field was not less than 100. 21The stigma receptivity was determined by the benzidinehydrogen peroxide method 22 with composition ratio 1% benzidine: 3% hydrogen peroxide: distilled water = 4:11:22.

Foraging behavior of A. cerana cerana
Twenty seven neighboring S. davidii plants were randomly divided into nine plots (three plants per plot).At the initial flowering stage of S. davidii, three plots were randomly selected to observe the foraging behavior of A. cerana cerana, while the other six plots were covered with nylon nets (100 mesh of size).During the full flowering period, three of the remaining six plots were randomly selected as observation the foraging behavior of A. cerana cerana, while the remaining three plots and three plots at the initial flowering period were covered with the nylon nets.The foraging behavior of A. cerana cerana was observed in the remaining three plots at the final flowering period, while other plots were covered with nylon nets.The indices of foraging behavior was determined by visual inspection, stopwatch timing and camera shooting.All measurements were carried out on sunny and breezy days, and each flowering periods was repeated for 3 d as three repetitions.The definitions of indicators are as follows:

Pollination test
Five pollination treatments were set up, that is, bee pollination at initial flowering period (Initial pollination), bee pollination at full flowering period (Full pollination), bee pollination at final flowering period (Final pollination), bee pollination at whole flowering period (Whole pollination) and spontaneous self-pollination at whole flowering period (Self-pollination).Bee pollination treatment was to add A. cerana cerana colonies around the study area and let bees pollinate freely.However, spontaneous self-pollination in the whole flowering period uses the nylon net to cover the plants to avoid the influence of pollinators.Random block arrangement was used to carry out three replicates for each treatment, and three neighboring S. davidii plants were selected for each replication.
(1) Determination the indexes of fertilization physiology: 10 flowers pollinated by A. cerana cerana and 10 flowers pollinated without pollinators were randomly collected at the initial, full and final flowering period, respectively, and put into a centrifugal tube filled with FAA stationary solution and marked.After fixation for 24 h, it was washed with distilled water, and the pistil and ovary were taken out.
The pistils were softened with 8 mol/L NaOH solution and stained with 0.1% aniline blue solution to make slides.The indexes of fertilization physiology which included the amounts of pollen and germinated pollen on the stigma, the numbers of ovules in the ovary and the lengths of pollen tubes, were measured with use of an optical or fluorescence microscope.
(2) Determination of seed yield: The seed yield of S. davidii was evaluated by pod setting rate, seed setting rate and 1000grain-weight.After pollination, 10 inflorescences were randomly marked in each treatment, and the pod setting situation was counted in the pod setting period.After pods matured, 10 pods were randomly collected in each treatment, and the seed setting situation of each pod was counted.100 seeds were randomly selected from the seeds obtained after pollination, then weighed and converted into 1000-grain-weight.The counting unit was grams.Each treatment was repeated three times.
(3) Determination of seed quality: Seed quality was evaluated by seed germination test.Fifty seeds with full grains were selected for each treatment.The seeds were evenly placed in a Petri dish covered with filter paper, and placed in a constant temperature (25℃) and humidity (80%) incubator to observe and record the germination of seeds, the length of root and seedlings.Each treatment was repeated three times.The calculation formulas of seed germination rate, germination potential, germination index and total activity were as follows: Germination rate (%) = (Number of seeds germinated during two weeks/Total number of seeds tested) × 100% Germination potential (%) = (Number of germinated seeds when the seeds germinate to the peak of the day/Total number of tested seeds) × 100% Germination index (GI) = ∑ Gt/Dt, (Gt is the number of seeds germinated in t days, and Dt is the corresponding number of seeds germinated) Vigor index (VI) = GI × S ('GI' is the germination index, and 'S' is the sum of the finally measured root length and seedling length)

Statistical analysis
The software used for the collation, analysis and drawing of test data were Excel 2016, GraphPad Prism 9 and SPSS 27.0.Most of the data obeyed a normal distribution, while percentage data and nectar volume were transformed by arcsin ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi x=100 p and ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi ffi ffiffi x þ 0:5 p , respectively.One-way analysis of variance was used to compare the differences in floral morphology, pollen viability, stigma receptivity, nectar volume and nectar concentration at different flowering periods as well as to compare the effects of different pollination treatments on the seed yield and quality of S. davidii, and the two PC values were extracted by principal component analysis (PCA) to calculate the scores of different pollination treatments and to derive the optimal pollination method.The independent samples t-test was used to compare the changes of indexes of fertilization physiology in S. davidii after bee pollination and spontaneous self-pollination at different flowering periods.

Floral traits
The phenological periods of S. davidii was 9.30 ± 0.24 d in the Guizhou Grassland Technology Extension Station of Dushan County, Guizhou Province, China.The initial, full and final flowering periods were 3.00 ± 0.14 d, 3.43 ± 0.13 d and 2.93 ± 0.16 d, respectively.
As shown in Table 1, there was no significant difference in calyx length, anther length, anther width, stigma length and stigma width during the three flowering periods (p > .05).But, the indices of stamen length, corolla length, corolla width, wing length, wing width and keel length at full flowering period were significantly lower than those at initial flowering period and final flowering period (p < .05).Among the three flowering periods, the pistil length at the full flowering period was only significantly longer than the length at the initial flowering period (p < .05).The vexillum length only showed that the length at full flowering period was significantly longer than the length at initial flowering period and the final flowering period (p < .05).The order of vexillum widths were as follows: initial flowering period > final flowering period > full flowering period (p < .05).The keel width at the initial flowering period, was only significantly wider than the width at the full flowering period (p < .05).
There were significant differences in nectar volume in different flowering periods (p < .05; Figure 1a), but no significant difference in nectar concentration (p >.05; Figure 1b).Among them, the maximum volume of nectar is 844 ± 11 μL at full flowering period, followed by 499 ± 2 μL at final flowering period and 370 ± 6 μL at initial flowering period.Although there was no difference in nectar concentration, the highest nectar concentration was 13.6 ± 0.2% at full period.
There were significant differences in pollen viability of S. davidii in different flowering periods (Table 2).The results of the I 2 -KI staining showed that the pollen viability at full flowering period was significantly higher than that at initial and final flowering period.Although the pollen viability at initial flowering period was higher than that at final flowering period, the difference was not significant (p > .05).
The stigma of S. davidii had a receptivity at each flowering period, but the strongest was at full flowering period (p < .05).It was thus clear that S. davidii had high pollen viability and stigma receptivity at full flowering period.

Foraging behavior
The nectar foraging behavior and pollen foraging behavior of A. cerana cerana on S. davidii are shown in Figure 2. Because the head and beak of A. cerana cerana cannot suck nectar from the flower base, it is observed that they will bite an opening near the flower base 2/5 (Figure 2d), and this nectar robbing behavior happens in most flowers.The foraging behavior of A. cerana cerana at different flowering periods of S. davidii is shown in Figure 3, in which the visit time per flower at full flowering period was significantly more than that at initial flowering period and final flowering period (p < .05),and the time at final flowering period was also significantly more than that at initial flowering period (p < .05).The whole visiting time at the final flowering period was significantly more than that at the initial flowering period (p < .05).However, there was no significant difference in the single visit time, the number of transfer per minute, the visit frequency and the number of touching stigma at different flower periods (p > .05).
The number of bees visiting flowers in the full flowering period of S. davidii was significantly higher than that at the initial flowering period and the final flowering period (p < .05)(Figure 4).Although the dynamic changes of the number of bees at different flowering periods were different, they all showed a "double peak" change.Such as the initial flowering period (11:00 and 13:00), the full flowering period (12:00 and 15:00), and the final flowering period (9:00 and 13:00), as well as the number of bees increased sharply at 15:00 in the full flowering period.
According to the results of correlation analysis (Table 3), there was no significant correlation between the single visit time and total visit time of Chinese honey bees and the floral traits of S. davidii (p > .05),but the visit time per flower, transfer times, visit frequency, times of touching stigma and number of visits were significantly (p < .05)or extremely significantly (p < .01)related to the flower traits.

Fertilization physiology
There were significant differences in pollen amount on, pollen germination rate and pollen tube length during different flowering periods under the two pollination methods (Figure 5; p < .05),and also some differences under different pollination methods at the same flowering period.In terms of stigma pollen amount (Figure 5a), the significance of bee pollination and self-pollination during the three flowering periods was as follows: full flowering period > final flowering period > initial flowering period (p < 0.05).Bee pollination scored significantly higher than self-pollination at full flowering period (F = 0.083, t = 13.587,p < 0.05) and final flowering period (F = 1.225, t = 5.522, p < .05).In terms of pollen germination rate (Figure 5b), both bee pollination and self-pollination showed that the full and final flowering period were significantly higher than the initial flowering period (p < .05),and bee pollination  was significantly higher than self-pollination at the full (F = 2.838, t = 3.909, p < .05)and final flowering period (F = 1.643, t = 4.460, p < .05).In terms of pollen tube length (Figure 5c), the significance of bee pollination during the three flowering periods was as follows: full flowering period > final flowering period > initial flowering period (p < .05).While selfpollination showed that the full and final flowering period were significantly greater than the initial flowering period (p < .05),but there was no significant difference between full flowering period and final flowering period (p > .05).Bee pollination was significantly greater than self-pollination at full flowering period (F = 0.001, t = 6.149, p < .05)and final flowering period (F = 0.256, t = 4.235, p < .05).On the number of ovules (Figure 5d), the full flowering period was significantly greater than the initial flowering period only in the presence of the Asian honey bees that were pollinating (p < .05).

Seed yield
Different pollination treatments have significant effects on pod setting rate, seed setting rate and thousand-grain weight of S. davidii (Table 4).Among them, the pod setting rate at full flowering period was the highest, the rate of which was significantly higher than other pollination treatments (p < .05).
The seed setting rate in full flowering period, was also the highest, which was significantly higher than other pollination treatments except full flowering period (p < .05).However, the highest thousand-grain weight of seeds was the whole pollination treatment, which was significantly heavier than both treatments of the final and self-pollination (p < .05).Table 3. Correlation between floral traits of S. davidii and foraging behavior.

Seed quality
The results in Table 5 show that different pollination treatments had significant effects on the seed quality of S. davidii.Among them, the germination rate of whole flowering pollination was the highest, followed by full flowering pollination, and the final flowering pollination was the lowest.The germination rates of whole flowering pollination and full flowering pollination were significantly higher than other pollination treatments (p < .05).The highest germination potential was whole flowering pollination which was significantly higher than that of other treatments except full flowering pollination (p < .05).And the highest germination index was full flowering pollination which was significantly higher than other pollination treatments (p < .05).However, the highest index of vigor was full flowering pollination, followed by initial flowering pollination, but only the vigor index of full flowering pollination and initial flowering pollination were significantly higher than that of self-pollination (p < .05).
The higher the comprehensive score, the more favorable pollination treatment was to increase the yield and improve the quality of S. davidii seeds.It could be seen from Table 7 that the comprehensive score of pollination at full flowering stage was the highest (2.83), followed by pollination at full flowering stage (0.99), and self-pollination was the lowest (−2.14).

Discussion
Floral traits and flowering phenology of plants are important for studying the reproductive ecology of plants.Among them, it is accepted that the flowering time and duration, flower structure characteristics and nectar volume have a significant effect on the plant reproductive success and pollinator behavior. 10,23The flowering periods of S. davidii population are happening between March and May, and the flowering periods of a single flower take about 9 d.The times of initial, full and final flowering periods were all a duration of about 3 d The flowering period of a single flower is consistent with the description of the Apicultural Science Association of China. 24he pistil of S. davidii is wrapped in the stamens.The pistil is short and the stamens are long at the initial and final flowering period, while the full flowering period is the opposite.This is similar to some of the interactive dimorphic stamens in family Rubiaceae, which is beneficial for insects to achieve accurate pollination and improve mating efficiency. 25In addition, nectar volume of S. davidii was abundant, and the sugar concentration of nectar was higher (about 13%).The secretion of nectar began at the initial flowering period, while the most vigorous was at the full flowering period, and there was still a high amount of nectar volume at the final flowering period.The nectar volume at the full flowering period was significantly greater than that at the initial and final flowering periods, which could provide a rich nectar reward for pollination insects throughout the phenological period of S. davidii.The result was similar to the nectar secretion rhythm of the new branches of Lycium barbarum, also known as Chinese wolfberry in China or Duke of Argyll's tea tree in the UK, that is an important commercial shrub crop in northern China. 26But, S. davidii has a peak honey production period of about 20 d, and throughout all the flowering periods it can brew between 20 and 25 kg of first-class honey per colony of bees, 24 which is reflecting that S. davidii is an ideal plant of nectar source and honey production.
Pollen, as the male gametophyte of plants, plays an important role in sexual reproduction, and active pollen can germinate on the stigma to complete fertilization. 27But, the pollen viability of S. davidii was changing over the different flowering periods and was as follows: full > initial > final flowering period (Table 2), and we believe this may be caused by plant genetic genes or environmental conditions as was also recently reported by Karim et al. 28 The period of stigma receptivity is the reproductive period in the process of flower maturation, which can affect to a large extent the self-pollination rate and the pollination rate at different periods after flowering.For example, the stigma receptivity of G. rigescens is weak at the end of the bud, strong at the full flowering period, and strongest at the late of the flowering period, but there is no receptivity at the wilting period.This is in agreement with previous work that the stigma receptivity of flowering plants is different at different opening periods of flowers. 29,30The results of this study showed that the stigma of S. davidii had a strong receptivity at full flowering period, and some stigmas had a receptivity at the initial and final flowering period (Table 2), indicating that S. davidii was suitable for pollination during the whole phenophase, but its pollen viability and stigma receptivity were the best at full flowering period.
The collection behavior of bees on pollinating plants is usually used as an evaluation index of bee pollination ability and effectiveness, which is generally influenced by plant resources, environmental factors and their own physiological factors. 31,32It is a mutually beneficial process for bees to visit flowering plants.Plants can provide some rewards for bees, such as nectar and pollen, which are stored in the hive as the energy source for their reproduction.At the same time, the collection behavior of bees increases the chances of flower pollination and improves the cross-pollination rate. 25,33owever, due to the limited resources and the change of flower morphology, there are some differences in the behavior of bees in different collection periods.In this study, the visit time (such as single visit time, visit time per flower and whole visiting time) of bees in the initial flowering period was less than that in the full flowering period and the final flowering period, so bees needed to move and visit between different flowers frequently, which led to higher transfer times, visit times and times of touching the stigma (Figure 2).However, there were many flowers and available resources in the full flowering period, so more time was spent on a flower, which led to the least number of transfer per minute, visit frequency and number of touching stigma in the full flowering periods, but it was not statistically significant among the three flowering periods (Figure 2).Some researchers believe that the most effective pollinators should be large in number and move quickly between flowers. 34In this study, the bees in full flowering period were the most active, indicating that the full flowering period was an effective period for Chinese honey bees to pollinate S. davidii.
Bee pollination can bring more pollen to the plant stigma, promote pollen germination on the stigma and provide a strong guarantee for the germination of more pollen tubes and double fertilization on the stigma. 35The results of this study demonstrated that the pollen amount and germination rate of S. davidii pollinated by the local bees (A.cerana cerana) was higher than those of self-pollination (Figure 4).It might be affected by bee pollination, which increases the probability of cross-pollination of S. davidii and promotes pollen germination. 36,37When comparing bee pollination and self-pollination (Figure 4), the amount of pollen at the initial flowering period were the same, which may be related to the volatile substances of flowers and the frequency of bee visits. 38,391][42] In this study, compared with selfpollination at whole flowering period, the pod setting rate, seed setting rate, thousand-grain weight, germination rate, germination potential, germination index and vigor index of bee pollination at whole flowering period increased by 30.54%, 27.66%, 0.37 g, 18.66%, 25.77%, 4.15 and 121.16, respectively (Tables 4 and 5).This increase could be due to frequent foraging activities caused by the introduction of bees which reduces the pollination failure and less number of flowers left without proper pollination. 43From the perspective of pollinator's body shape, A. cerana cerana may not be the best pollinator of S. davidii, but can significantly improve the seed yield and quality of S. davidii.And pollination by A. cerana cerana during the whole flowering period may be the best way to promote its seed production.

( 1 )
Single visit time: The time it takes for bees to collect nectar and pollen from flowers and leave the same flower.(2) Visit time per flower: The time it takes for bees to fall on flowers to collect nectar and pollen and temporarily leave flowers to comb pollen.(3) Whole visiting time: The time from the time when bees enter the pollination plot to collect nectar and pollen and leave the plot.(4) Number of transfer per minute: The transfer times of bees on flowers in the process of visiting flowers for 1 min.(5) Visit frequency: The number of flowers visited by bees within 1 min.(6) Number of touching stigma: The number of times that bees contact the style during the 1 min collection.(7) Number of visiting bee: The number of bees visiting a flower within 1 min in the pollination community.

Figure 1 .
Figure 1.Mean (±SE) nectar volume (a) and nectar concentration (b) from S. davidii at different flowering periods.Based on three repetitions and each repetition consists of 30 inflorescences per flowering period.Different letters indicate a significant difference in different flowering periods (p < .05).

Figure 4 .
Figure 4.The number and dynamics of visiting bees (mean ± SE) at different flowering stages of S. davidii, initial, full and final.(a) Number of visiting bees, (b) the dynamic of visiting bees.Different letters indicate a significant difference in different flowering periods (p < .05).

Figure 3 .
Figure 3. Foraging behavior (mean ± SE) of A. cerana cerana at different flowering periods of S. davidii, initial, full and final.(a) Single visit time, (b) visit time per flower, (c) whole visiting time, (d) number of transfer per minute, (e) visit frequency, (f) number of touching stigma.Different letters indicate a significant difference in different flowering periods (p < .05).

Figure 5 .
Figure 5. Mean (± SE) fertilization physiology indices at different flowering periods in S. davidii after pollination.(a) pollen amount, (b) pollen germination rate, (c) pollen tube length, (d) ovule number.Different lowercase letters indicate a significant differences in different flowering periods (p < .05),and different uppercase letters indicate a significant differences between different pollination methods in the same flowering period (p < .05).

Table 1 .
The floral morphology of S. davidii at different flowering periods.The values in the table are "mean ± SE", based on three repetitions and each repetition consisted of 10 flowers per flowering stage.Different letters represent significant differences in different flowering periods (p < .05).

Table 2 .
Pollen viability (mean ± SE) and stigma receptivity of S. davidii at different flowering periods, initial, full and final.Based on three repetitions and each repetition consists of 30 flowers per flowering period.Different letters represent significant differences in different flowering periods (p < .05)."++ +" indicates strong receptivity."++" indicates low receptivity."+" indicates very low receptivity.

Table 4 .
Effects of different pollination treatments on seed yield of S. davidii.The values in the table are "mean ± SE", and different lowercase letters in the same column indicate significant differences (p < .05).

Table 5 .
Effects of different pollination treatments on seed quality of S. davidii.The values in the table are "mean ± SE", and different lowercase letters in the same column indicate significant differences (p < .05).

Table 6 .
Principal component extraction of seed yield and quality of S. davidii after different pollination treatments.

Table 7 .
Principal component factor scores of seed yield and quality of S. davidii after different pollination treatments.